In another embodiment of the present invention a computer-implemented method for displaying a draw result is provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner; rendering with a computer a first video presentation for display at a first terminal, wherein the first video presentation comprises first content and an indication of the draw result; rendering with a computer a second video presentation for display at a second terminal, wherein the second video presentation comprises second content and an indication of the draw result, and wherein the first content is distinct from the second content; transmitting the first video presentation to the first terminal; and transmitting the second video presentation to the second terminal.
|
1. A computer-implemented method comprising:
generating, by a specifically programmed computer system, a first draw result, wherein the first draw result indicates at least one first winner;
displaying, by the specifically programmed computer system, a first animated race video presentation of the first draw result as a first race at a plurality of first terminals, wherein the first animated race video presentation comprises at least one first race animation having a first plurality of animated race objects moving along at least one first animation path in at least one first animated race scene, wherein the at least one first race animation having the first plurality of animated race objects moving along the at least one first animation path in the at least one first animated race scene is generated, in real-time and independently from each player, based on:
i) the first draw result,
ii) a first group comprising:
1) a first set of pre-made artist drawn race animation paths which represent first positions and first orientations of animated race objects moving along each of the first set of pre-made artist drawn animation paths from a first beginning to a first end of each of the first set of pre-made artist drawn animation paths,
2) a second set of pre-made artist drawn camera paths which represent three dimensional (3D) camera views, and
3) a third set of animated race objects moving along each of the first set of pre-made artist drawn animation paths from the first beginning to the first end of each of the first set of pre-made artist drawn animation paths, generated by a piece-wise temporal algorithm; and
iii) a first random selection from the first group to match the first draw result;
generating, by the specifically programmed computer system, a second draw result, wherein the second draw result indicates at least one second winner, wherein the generating of the second draw result is subsequent to the generating of the first draw result; and
displaying, by the specifically programmed computer system, a second animated race video presentation of the second draw result as a second race at the plurality of a terminals, wherein the second animated video presentation comprises at least one second race animation having a second plurality of animated race objects moving along at least one second animation path in at least one second animated race scene, wherein the at least one second race animation having the second plurality of animated race objects moving along the at least one second animation path in the at least one second animated race scene is generated, in real-time and independently from each player, based on:
i) the second draw result,
ii) a second group comprising:
1) a fourth set of pre-made artist drawn race animation paths which represent second positions and second orientations of the animated race objects moving along each of the fourth set of pre-made artist drawn animation paths from a second beginning to a second end of each of the fourth set of pre-made artist drawn animation paths,
2) a fifth set of pre-made artist drawn camera paths which represent the three dimensional (3D) camera view, and
3) a sixth set of animated race objects moving along each of the fourth set of pre-made artist drawn animation paths from the second beginning to the second end of each of the fourth set of pre-made artist drawn animation paths, generated by the piece-wise temporal algorithm; and
iii) a second random selection from the second group to match the second draw result;
wherein the first animated race video presentation of the first draw result of the first race is distinct from the second animated race video presentation of the second draw result of the second race.
16. A specifically programmed computer system, comprising:
a) a non-transient memory having at least one region for storing computer executable program code; and
b) at least one processor for executing the program code stored in the non-transient memory, wherein the program code comprising:
code to generate a first draw result, wherein the first draw result indicates at least one first winner;
code to display a first animated race video presentation of the first draw result as a first race at a plurality of terminals, wherein the first animated race video presentation comprises at least one first race animation having a first plurality of animated race objects moving along at least one first animation path in at least one first animated race scene, wherein the at least one first race animation having the first plurality of animated race objects moving along the at least one first animation path in the at least one first animated race scene is generated, in real-time and independently from each player, based on:
i) the first draw result,
ii) a first group comprising:
1) a first set of pre-made artist drawn race animation paths which represent first positions and first orientations of animated race objects moving along each of the first set of pre-made artist drawn animation paths from a first beginning to a first end of each of the first set of pre-made artist drawn animation paths,
2) a second set of pre-made artist drawn camera paths which represent three dimensional (3D) camera views, and
3) a third set of animated race objects moving along each of the first set of pre-made artist drawn animation paths from the first beginning to the first end of each of the first set of pre-made artist drawn animation paths, generated by a piece-wise temporal algorithm; and
iii) a first random selection from the first group to match the first draw result;
code to generate a second draw result, wherein the second draw result indicates at least one second winner, wherein the generating of the second draw result is subsequent to the generating of the first draw result; and
code to display a second animated race video presentation of the second draw result as a second race at the plurality of terminals, wherein the second animated video presentation comprises at least one second race animation having a second plurality of animated race objects moving along at least one second animation path in at least one second animated race scene, wherein the at least one second race animation having the second plurality of animated race objects moving along the at least one second animation path in the at least one second animated race scene is generated, in real-time and independently from each player, based on:
i) the second draw result,
ii) a second group comprising:
1) a fourth set of pre-made artist drawn race animation paths which represent second positions and second orientations of the animated race objects moving along each of the fourth set of pre-made artist drawn animation paths from a second beginning to a second end of each of the fourth set of pre-made artist drawn animation paths,
2) a fifth set of pre-made artist drawn camera paths which represent the three dimensional (3D) camera views, and
3) a sixth set of animated race objects moving along each of the fourth set of pre-made artist drawn animation paths from the second beginning to the second end of each of the fourth set of pre-made artist drawn animation paths, generated by the piece-wise temporal algorithm; and
iii) a second random selection from the second group to match the second draw result;
wherein the first animated race video presentation of the first draw result of the first race is distinct from the second animated race video presentation of the second draw result of the second race.
2. The method of
i) separately purchasing an option to submit the at least one customization, and
ii) achieving at least one pre-determined gaming related goal.
3. The method of
4. The method of
5. The method of
6. The method of
7. The method of
8. The method of
measuring, by the specifically programmed computer system, a length of time that the at least one first advertising and the at least one second advertising are displayed.
9. The method of
billing, by the specifically programmed computer system, an advertiser based at least in part upon the measured length of time.
10. The method of
11. The method of
12. The method of
13. The method of
14. The method of
15. The method of
17. The system of
i) separately purchasing an option to submit the at least one customization, and
ii) achieving at least one pre-determined gaming related goal.
18. The system of
19. The system of
21. The system of
22. The system of
23. The system of
code to measure a length of time that the at least one first advertising and the at least one second advertising are displayed.
24. The system of
code to bill an advertiser based at least in part upon the measured length of time.
25. The system of
26. The system of
27. The system of
28. The system of
29. The system of
30. The system of
|
This application claims the benefit of U.S. Provisional Application Ser. No. 60/891,591, filed Feb. 26, 2007 and U.S. Provisional Application Ser. No. 60/956,917, filed Aug. 20, 2007. Each of the aforementioned applications is incorporated herein by reference in its entirely.
In one embodiment of the present invention a computer-implemented method for displaying a draw result as a race is provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner; inputting a plurality of animation paths into a computer, wherein each of the plurality of animation paths is associated with a respective one of a plurality of race objects; and rendering an animation with a computer based at least in part upon the input plurality of animation paths and the generated draw result such that the race object to finish first in the animation corresponds to the first place winner of the draw result.
In another embodiment of the present invention a computer-implemented method for displaying a draw result is provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner; rendering with a computer a first video presentation for display at a first terminal, wherein the first video presentation comprises first content and an indication of the draw result; rendering with a computer a second video presentation for display at a second terminal, wherein the second video presentation comprises second content and an indication of the draw result, and wherein the first content is distinct from the second content; transmitting the first video presentation to the first terminal; and transmitting the second video presentation to the second terminal.
In another embodiment of the present invention a system and method for pseudo-random 3D video game distribution using 2D hardware is provided.
In another embodiment of the present invention a piece-wise temporal algorithm for pseudo-random realistic object motion is provided.
For the purposes of describing and claiming the present invention the term “draw result” is intended to refer to the outcome (e.g., the random outcome) of a selection such as, for example, a lottery drawing. Such a draw result may comprise, for example, a single winning indicium (e.g., a single winning number) or a plurality of winning indicia (e.g., a plurality of winning numbers). When there are a plurality of winning indicia the order of the indicia may be relevant (e.g., 1st, 2nd and 3rd place in a race).
Described herein are a set of games called Monitor Games (hereinafter sometimes called simply “games”). In one example, the Monitor Games may be numerical games. The customer places a bet on the outcome (draw result) and watches the resulting virtual event on a local terminal to see if he won. In one example, the games may target a younger audience than traditional players. To keep these younger players interested, complex games with interesting graphics may be required. Of note, the games may need to appear unique each time they are run, even if the draw result is the same.
In one specific example, games must be capable of being run on the current generation systems (e.g., a Coronis system). Such a Coronis system is typically not capable of generating custom 3D content as draw results come in (e.g., such a Coronis system may typically only be capable of displaying pre-rendered video content).
Thus, in one embodiment, the present invention provides a system and method to offer next generation graphics on current generation hardware.
Further, in the field of computer animation there is typically a need to move objects in a scene to generate an animation sequence. A scene is a set of single or multi-dimensional data which specifies, or can be transformed to, 2D coordinates and color intensities for the display device. The display device can either be electronic, such as a computer screen, or physical, such as a photograph. An animation sequence is a set of transformations (“transformations”) of the data which when displayed in sequence, produce the appearance of motion on the device.
The transformations must typically be constrained in order to provide a realistic feel to the animation sequence. The uniqueness of an animation sequence is determined by the uniqueness of its transformations. The transformations can be created by hand, or can be generated algorithmically. Thus, if the desire is to generate many unique animation sequences, many constrained transformations must be generated.
Among those benefits and improvements that have been disclosed, other objects and advantages of this invention will become apparent from the following description taken in conjunction with the accompanying figures. The figures constitute a part of this specification and include illustrative embodiments of the present invention and illustrate various objects and features thereof.
Detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely illustrative of the invention that may be embodied in various forms. In addition, each of the examples given in connection with the various embodiments of the invention are intended to be illustrative, and not restrictive. Further, the figures are not necessarily to scale, some features may be exaggerated to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.
In one embodiment, there may be two types of games displayed: static games and dynamic games (in each type of game, the customers may place bets before the game is run).
Referring first to static games, it is noted that in one example each static game may have a relatively small number of possible outcomes. For each outcome, a constant number of permuted renderings are created off-line and stored at one or more local terminals. For example, if the game is the result of one dice roll, the total number of outcomes is 6. The total permuted outcomes can be arbitrary, but constant. So there might be, for example, 10 pieces of pre-rendered content for each possible dice roll for a total of 60 pre-rendered scenes to choose from.
In one example, the static game can be played as frequently as once a minute, although the time can be longer or shorter. The customers place their bets while introductory content is played (the introductory content may be from a central system and/or a local terminal). Betting closes before the draw result is displayed by each local terminal. During that period, a message warning that betting is closing soon may be provided (the warning may be from a central system and/or a local terminal). Of course, betting may close before the draw result is received by the local terminal or upon issuance of the draw result by the central system. The local terminals receive the draw result and select (e.g., randomly select) content that matches the draw result. The local terminals display the content allowing the customers to visualize the draw result in the context of the game type.
Reference will now be made to
More particularly, it is seen in this
Further, it is seen in this
Referring now to dynamic games, such games may again (in one example) have a relatively small number of possible outcomes. Unlike a static game, however, a dynamic game may have objects whose motion is complex. Examples of dynamic games include (but are not limited to) car races or horse races. To achieve a realistic feel, the set of paths the objects take must be sufficiently large. It may be impractical to pre-render sufficient content and thus the content may need to be rendered uniquely for each draw. In this regard, for a dynamic game a central system may produce both a draw result and a unique path for each object in the scene.
In one example, the dynamic game can be played as frequently as once a minute, although the time can be longer or shorter. The customers place their bets while introductory content is played (the introductory content may be from a central system and/or a local terminal). Betting closes before the draw result is displayed by each local terminal. During that period, a message warning that betting is closing soon may be provided (the warning may be from a central system and/or a local terminal). Of course, betting may close before the draw result is received by the local terminal or upon issuance of the draw result by the central system. The draw result is used by the central system to render the art content. In one example, the content is animated in 3D by the central system, which produces the resulting animation sequence as one or more video clips. The video clip(s) are sent to the local terminals for display.
Of course, dynamic games may comprise real-time rendered content as described above as well as pre-rendered content (similar to the static games). In one example, the real-time portion may be delivered (e.g., along with the draw result) by the central system to the local terminals and the pre-rendered content (to the extent it is utilized) may be stored locally at each local terminal.
Reference will now be made to
More particularly, it is seen in this
Further, it is seen in this
In other embodiments, various systems and methods may be provided via which one or more video presentations may be generated uniquely for each draw. In one example, this allows the system to customize art content to a particular terminal (e.g., a particular Coronis terminal) while allowing the same draw across multiple terminals (e.g., multiple Coronis terminals).
Customization may include, for example, advertising targeted to the current user (e.g., the current Coronis user). In one example, the user may be identified (e.g., at a particular terminal) using a unique identifier such as a RFID or smart card. In another example, the user may be a “statistical” user, whose characteristics are inferred from other data. In another example, the advertising may become part of the 3D artwork for the scene. The system may measure how long the advertising was visible to the user (this data may be used, for example, for billing the advertiser).
Customization may include user specific objects to bet on. For example, if the system is displaying a car race, a unique user may have acquired a car color not generally available (e.g., a custom car color may be acquired either by a separate purchase or the custom car color may be acquired by achieving some gaming related goal, such as a number of plays per hour). Whichever car the user bet on could be of that color. Such customization may work in reverse as well. For example, the user who bet the most money with the system could have his custom car be the car he bets on for the entire system.
In another embodiment of the present invention a computer-implemented method for displaying a draw result is provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner; rendering with a computer a first video presentation for display at a first terminal, wherein the first video presentation comprises first content and an indication of the draw result; rendering with a computer a second video presentation for display at a second terminal, wherein the second video presentation comprises second content and an indication of the draw result, and wherein the first content is distinct from the second content; transmitting the first video presentation to the first terminal; and transmitting the second video presentation to the second terminal (in some examples, the first and/or second video presentations may rendered by central computer system 101 of
In one example, the first content may comprise advertising.
In another example, the first content may comprise advertising and the second content may comprise advertising.
In another example, the first content may comprise advertising customized for a user of the first terminal.
In another example, the second content may comprise advertising customized for a user of the second terminal.
In another example, the user of the first terminal may be identified via a unique identifier.
In another example, the user of the second terminal may be identified via a unique identifier.
In another example, each unique identifier may comprise at least one of a RFID card and a smart card.
In another example, the user of the first terminal may be identified via inference of data subjected to statistical analysis.
In another example, the user of the second terminal may be identified via inference of data subjected to statistical analysis.
In another example, the method may further comprise measuring a length of time that the advertising customized for the first user is displayed at the first terminal (e.g. to the first user).
In another example, the method may further comprise measuring a length of time that the advertising customized for the second user is displayed at the second terminal (e.g., to the second user).
In another example, the method may further comprise billing an advertiser based at least in part upon the measured length of time that the advertising customized for the first user is displayed at the first terminal (e.g., to the first user).
In another example, the method may further comprise billing an advertiser based at least in part upon the measured length of time that the advertising customized for the second user is displayed at the second terminal (e.g., to the second user).
In another example, the first content may comprise an object associated with a bet.
In another example, the second content may comprise an object on which to bet.
In another example, the draw result may be associated with a lottery.
In another example, the draw result may be generated essentially randomly.
In another example, the draw-result may be generated essentially in real-time.
In another example, the draw result may be generated with a computer.
In another example, the draw result may be generated manually (e.g., chosen by hand).
In another example, the computer that renders the first video presentation may be the same computer as the computer that renders the second video presentation.
In another example, the computer that renders the first video presentation may be different from the computer that renders the second video presentation.
In another example, the computer that renders the first video presentation and/or the computer that renders the second video presentation may be the same computer as the computer that generates the draw result.
In another example, the computer that renders the first video presentation and/or the computer that renders the second video presentation may be different from the computer that generates the draw result.
In another example, the first video presentation may be transmitted to the first terminal from the same computer that transmits the second video presentation to the second terminal.
In another example, the first video presentation may be transmitted to the first terminal from a different computer than the computer that transmits the second video presentation to the second terminal.
In another example, the first video presentation may be transmitted to the first terminal via at least one of a satellite connection and a network connection and the second video presentation may be transmitted to the second terminal via at least one of a satellite connection and a network connection
In another example, the draw result may comprise a plurality of winning numbers.
In another example, the steps may be carried out in the order recited.
In another embodiment of the present invention a computer-implemented method for displaying a draw result is provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner, wherein the draw result is generated essentially randomly, wherein the draw result is associated with a lottery, and wherein the draw result is generated with a computer; rendering with a computer a first video presentation for display at a first terminal, wherein the first video presentation comprises first content and an indication of the draw result; rendering with a computer a second video presentation for display at a second terminal, wherein the second video presentation comprises second content and an indication of the draw result, and wherein the first content is distinct from the second content; transmitting the first video presentation to the first terminal; and transmitting the second video presentation to the second terminal; wherein the first content comprises advertising and wherein the second content comprises advertising; wherein the first content comprises advertising customized for a user of the first terminal; and wherein the second content comprises advertising customized for a user of the second terminal (in some examples, the first and/or second video presentations may rendered by central computer system 101 of
In one example, the steps may be carried out in the order recited.
Referring now to
Referring first to
Referring now to
Referring now to
Referring now to
Reference will now be made to a piece-wise temporal algorithm (“algorithm”) that generates a set of transformations that will animate a set of objects in a scene. The algorithm applies the desired constraints to piecewise description of the transformations needed to animate the objects.
Transformation: The transformation is a set of data which define all the necessary changes for an object, or set of objects, that animate. Each piece of data can be of arbitrary dimension. In one example, three dimensional points are used. Two points define a subset of the animation sequence over which the object starts at the first point and ends at the second point. Two vectors specify an incoming and outgoing direction of the object respectively. The magnitude of each vector is proportional to the velocity with which the object is moving at that particular point. Taken together, this data specifies a Cubic Spline (“spline”). The orientation is inferred from the tangent of the spline. The transformation also contains a set of data which is interpolated from a constraint. The data can be used to control other aspects of the object animation, such as color changes or object data deformation.
Constraints: A constraint is a limitation on the possible value a transformation may take. This constraint may be temporal, spatial or both. The constraint may affect the object in multiple ways. It may constrain its change in position, orientation, velocity, or acceleration. At each point in the algorithm, all constraints must be satisfied in order for a valid transformation to be generated. If there is no valid transform given the constraints, the algorithm describes the minimal constraints which must be relaxed to generate a valid transform.
The Algorithm: The algorithm takes the following constraints as input:
Step 1: The Algorithm computes the implied average velocity for each object. The Algorithm divides the track into a constant number of pieces. For each piece, the Algorithm perturbs the velocity of each object as it passes over that piece such that over all pieces, the average velocity is maintained and all constraints are satisfied. Orientation is also computed similarly. The starting position is then recomputed for each time step based on the randomly perturbed direction and orientation. This generates a set of positions and orientations over time.
Step 2: Once Step 1 is complete, the Algorithm will fit a set of piecewise curves to the resultant set of position and orientation data. The set of curves are the output of the algorithm. Curves are used to allow for smooth interpolation for the animated objects.
In other embodiments, various systems and methods may be provided in which: (1) a “race” is a set of pre-made artist drawn animation paths (e.g., in 3D) which represent the position and orientation of a set of animated objects (the artist may provide a mapping of the race paths to the finishing order of the objects); and (2) a “camera” is a pre-made artist drawn path (e.g., in 3D) that represents a 3D camera (a 3D camera may have a position and a look-at point, as well as other parameters). Any race set may be combined with any camera.
With this information, the system can take any race and camera set, and render the scene with any draw result (e.g., in real-time). The combinatorial nature of the design means that a large number of final renderings can be achieved by a small set of races and cameras.
In one example, the race path may comprise velocity, acceleration, yaw, and/or orientation for the objects (e.g., for each of the objects). In another example, the race path may comprise (based on object and/or track models) piecewise Bezier splines.
In another embodiment of the present invention a computer-implemented method for displaying a draw result as a race may be provided, comprising: generating a draw result, wherein the draw result indicates at least a first place winner; inputting a plurality of animation paths into a computer, wherein each of the plurality of animation paths is associated with a respective one of a plurality of race objects; and rendering an animation with a computer based at least in part upon the input plurality of animation paths and the generated draw result such that the race object to finish first in the animation corresponds to the first place winner of the draw result (in some examples, the animation may be rendered by central computer system 101 of
In one example, the draw result may be generated with a computer.
In another example, the draw result may be generated manually (e.g., chosen by hand).
In another example, the draw result may be associated with a lottery.
In another example, the computer into which the plurality of animation paths are input may be the same computer as the computer which renders the animation.
In another example, the computer into which the plurality of animation paths are input may be a different computer from the computer which renders the animation.
In another example, the computer into which the plurality of animation paths are input and/or the computer which renders the animation may be the same as the computer which generates the draw result.
In another example, the computer into which the plurality of animation paths are input and/or the computer which renders the animation may be different from the computer which generates the draw result.
In another example, the draw result may be input into the computer into which the plurality of animation paths are input.
In another example, the draw result may be input into the computer which renders the animation.
In another example, the method may further comprise: inputting at least one camera path; wherein the rendering the animation may further comprise rendering the animation based at least in part upon the input plurality of animation paths, the input camera path and the generated draw result such that the race object to finish first in the animation corresponds to the first place winner of the draw result.
In another example, the draw result may be generated essentially randomly.
In another example, the draw result may be generated essentially in real-time.
In another example, the rendering may be done essentially in real-time.
In another example, the input plurality of animation paths and the input camera path may be pre-made, prior to the generation of the draw result.
In another example, each of the plurality of race objects may be selected from the group including (but not limited to): (a) a boat; (b) a car; (c) a horse; and (d) a dog.
In another example, each of the plurality of an animation paths may comprise at least one of: velocity; acceleration; and orientation.
In another example, each of the plurality of animation paths may comprise a plurality of piecewise Bezier splines.
In another example, each of the plurality of animation paths may be distinct from one another.
In another example, each camera path may be distinct from one another.
In another example, the steps may be carried out in the order recited.
In another embodiment of the present invention, a computer-implemented method for displaying a draw result as a race is provided, comprising: generating a draw result, wherein the draw result indicates an order of finish of the race, wherein the draw result is generated essentially randomly, wherein the draw result is associated with a lottery, and wherein the draw result is generated with a computer; inputting a plurality of animation paths into a computer, wherein each of the plurality of animation paths is associated with a respective one of a plurality of race objects; and rendering an animation with a computer based at least in part upon the input plurality of animation paths and the generated draw result such that the race objects finish the animation in an order corresponding to the order of finish of the race indicated by the draw result (in some examples, the animation may rendered by central computer system 101 of
In another example, the computer into which the plurality of animation paths are input may be the same computer as the computer which renders the animation.
In another example, the computer into which the plurality of animation paths are input may be a different computer from the computer which renders the animation.
In another example, the computer into which the plurality of animation paths are input and/or the computer which renders the animation may be the same as the computer which generates the draw result.
In another example, the computer into which the plurality of animation paths are input and/or the computer which renders the animation may be different from the computer which generates the draw result.
In another example, the draw result may be input into the computer into which the plurality of animation paths are input.
In another example, the draw result may be input into the computer which renders the animation.
In another example, the method may further comprise: inputting at least one camera path; wherein the rendering the animation further comprises rendering the animation based at least in part upon the input plurality of animation paths, the input camera path and the generated draw result such that the race objects finish the animation in an order corresponding to the order of finish of the race indicated by the draw result.
In another example, the steps may be carried out in the order recited.
In another example, there may be 1-5 race objects.
In another example, there may be 1-5 animation paths.
In another example, there may be 1-5 camera paths.
Referring now to
Referring first to
Referring now to
Referring now to
Referring now to
In another example, an artist may draw one or more races (e.g., pre-rendered drawings showing cars on a race track at each position). An artist may take model(s) and track(s) and (e.g., utilizing a computer) generate piecewise Bezier splines for the animation paths (positions, overtaking, etc.). The paths may be selected so that the winning race object(s), for example winning car(s), are mapped to the correct path(s). A real-time animation system may load the paths and add cars to render the animation(s).
In another example, an animation and modeling software package from XSI SOFTIMAGE may be utilized for any required animation and/or modeling tasks (if desired, the XSI text output may be made binary).
As described herein, various embodiments of the present invention may provide a displayed race that may be “interesting”, “unique” and/or may “feel realistic”.
Of note, the embodiments described herein may, of course, be implemented using any appropriate computer hardware and/or computer software. In this regard, those of ordinary skill in the art are well versed in the type of computer hardware that may be used (e.g., a mainframe, a mini-computer, a personal computer (“PC”), a network (e.g., an intranet and/or the Internet)), the type of computer programming techniques that may be used (e.g., object oriented programming), and the type of computer programming languages that may be used (e.g., C++, Basic, AJAX, Javascript). The aforementioned examples are, of course, illustrative and not restrictive.
While a number of embodiments of the present invention have been described, it is understood that these embodiments are illustrative only, and not restrictive, and that many modifications may become apparent to those of ordinary skill in the art. For example, certain methods may have been described herein as being “computer implementable” or “computer implemented”. In this regard, it is noted that while such methods can be implemented using a computer, the methods do not necessarily have to be implemented using a computer. Also, to the extent that such methods are implemented using a computer, not every step must necessarily be implemented using a computer. Further, any desired number of draw result(s) may be generated and/or displayed. Further still, any number of computers may be replaced by any other desired number of computers (e.g., one computer may perform the tasks described herein as being done by one or more computers and/or one or more computers may perform the tasks described herein as being done by one computer). Further still, any desired number of users may utilize the present invention. Further still, any desired still image(s) may be used in conjunction with or in place of any desired video. Further still, the various steps may be carried out in any desired order (and any desired steps may be added and/or any desired steps may be eliminated).
Antonopoulos, Constantinos, Minadakis, Yannis, Boronikolos, Andreas
Patent | Priority | Assignee | Title |
Patent | Priority | Assignee | Title |
4797836, | Nov 19 1986 | GRASS VALLEY US INC | Image orientation and animation using quaternions |
5324035, | Dec 02 1991 | IGT | Video gaming system with fixed pool of winning plays and global pool access |
5326104, | Feb 07 1992 | IGT, A CORP OF NEVADA | Secure automated electronic casino gaming system |
5717848, | Jun 11 1990 | Hitachi, Ltd. | Method and apparatus for generating object motion path, method of setting object display attribute, and computer graphics system |
5851149, | May 25 1995 | TECH LINK INTERNATIONAL LIMITED | Distributed gaming system |
6652378, | Jun 01 2001 | IGT | Gaming machines and systems offering simultaneous play of multiple games and methods of gaming |
6714201, | Apr 14 1999 | 3D Open Motion, LLC | Apparatuses, methods, computer programming, and propagated signals for modeling motion in computer applications |
6793575, | Nov 10 2000 | Case Venture Management, LLC | Racing game |
6887150, | Jan 12 2001 | Konami Corporation | Racing game machine with virtual telescope |
6921331, | Apr 19 2001 | IGT | Methods and systems for electronic virtual races |
7151542, | Oct 17 2001 | AUTODESK, Inc | Manipulation of motion data in an animation editing system |
7167180, | Feb 23 1998 | ALGOTEC SYSTEMS LTD | Automatic path planning system and method |
20020169013, | |||
20030008695, | |||
20030060247, | |||
20030114211, | |||
20040009796, | |||
20040053686, | |||
20060111168, | |||
20060166731, | |||
20060189368, | |||
20060192783, | |||
20060211471, | |||
20060234791, | |||
20060246988, | |||
20060247039, | |||
20060258432, | |||
20070085851, | |||
20080102947, | |||
20080207300, | |||
WO2005086969, | |||
WO2006014722, |
Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Feb 25 2008 | Intralot S.A.—Integrated Lottery Systems and Services | (assignment on the face of the patent) | / | |||
Apr 30 2008 | ANTONOPOULOS, CONSTANTINOS | INTRALOT S A - INTEGRATED LOTTERY SYSTEMS AND SERVICES | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020985 | /0161 | |
Apr 30 2008 | BORONIKOLOS, ANDREAS | INTRALOT S A - INTEGRATED LOTTERY SYSTEMS AND SERVICES | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020985 | /0161 | |
Apr 30 2008 | MINADAKIS, YANNIS | INTRALOT S A - INTEGRATED LOTTERY SYSTEMS AND SERVICES | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 020985 | /0161 | |
Aug 03 2021 | INTRALOT S A - INTEGRATED LOTTERY SYSTEMS AND SERVICES | INTRALOT, INC | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 058319 | /0781 | |
Jul 28 2022 | INTRALOT, INC | KEYBANK NATIONAL ASSOCIATION, AS ADMINISTRATIVE AGENT | SECURITY INTEREST SEE DOCUMENT FOR DETAILS | 061147 | /0888 |
Date | Maintenance Fee Events |
Jan 25 2018 | M1551: Payment of Maintenance Fee, 4th Year, Large Entity. |
Jan 19 2022 | M1552: Payment of Maintenance Fee, 8th Year, Large Entity. |
Date | Maintenance Schedule |
Aug 05 2017 | 4 years fee payment window open |
Feb 05 2018 | 6 months grace period start (w surcharge) |
Aug 05 2018 | patent expiry (for year 4) |
Aug 05 2020 | 2 years to revive unintentionally abandoned end. (for year 4) |
Aug 05 2021 | 8 years fee payment window open |
Feb 05 2022 | 6 months grace period start (w surcharge) |
Aug 05 2022 | patent expiry (for year 8) |
Aug 05 2024 | 2 years to revive unintentionally abandoned end. (for year 8) |
Aug 05 2025 | 12 years fee payment window open |
Feb 05 2026 | 6 months grace period start (w surcharge) |
Aug 05 2026 | patent expiry (for year 12) |
Aug 05 2028 | 2 years to revive unintentionally abandoned end. (for year 12) |